Title :
An adaptive data rate controller (ADRC) for the through cloud, undersea laser communications channel
Author :
Stokes, Roger ; Bermal, Mark ; Griffith, Chris ; Blair, Randall ; Marttila, EJ ; Mooradian, Greg
Author_Institution :
QinetiQ North America, San Diego, CA, USA
Abstract :
The decades-old VLF radio system used to communicate with submerged submarines is limited to a few 10´s of bits per second, and the submarine must surface to respond. If radio cannot be used for reasons of covertness, the submarine is silenced. QinetiQ North America (QNA) is developing for DARPA an Adaptive Data Rate Controller (ADRC) for a Submarine Laser Communications (SLC) system utilizing wavelengths in the blue-green window of seawater. This SLC system can link a submarine at speed and depth with an aircraft above the clouds at data rates up to megabits per second during both day and night. The high peak power and monochromaticity of a laser, along with a very narrow-band optical filter, significantly improves rejection of solar background, and thus maximizes communication depth.
Keywords :
adaptive control; clouds; optical communication equipment; optical control; optical filters; optical links; underwater optical wireless communication; underwater optics; underwater vehicles; wireless channels; ADRC; SLC system; VLF radio system; adaptive data rate controller; aircraft; blue-green wavelength window; cloud communication channel; clouds; communication depth; data rates; laser communication channel; laser power; monochromaticity; narrow-band optical filter; seawater; solar background; submarine laser communications; submerged submarines; undersea communication channel; Lasers; Optical filters; Optical pulses; Optical scattering; Optical transmitters; Signal to noise ratio; Underwater vehicles;
Conference_Titel :
Photonics Society Summer Topical Meeting Series, 2012 IEEE
Conference_Location :
Seattle, WA
Print_ISBN :
978-1-4577-1526-6
DOI :
10.1109/PHOSST.2012.6280748
